TY - JOUR
TI - Numerical simulation of ground temperature field changein underground heat transfer zone of ground sourceheat pump under different groundwater runoff conditions
AU - Chen Dongqin
JN - Thermal Science
PY - 2024
VL - 28
IS - 2
SP - 1245
EP - 1251
PT - Article
AB - The heat transfer capacity of ground and soil energy sources is the key  factor that affects the performance of the ground source heat exchanger. The  heat storage capacity of soil is related to various factors. The author  proposes a multi-component heat pump system which combines solar energy,  waste heat, and air, and designs a new type of dual channel finned tube  evaporator for defrosting. Based on different weather conditions, the  operation mode of the system was provided, and performance tests were  conducted on the system under no light conditions and with or without waste  heat utilization. The results show that the seepage speed of buried tube  ground source heat pump system geographic tube heat exchanger and soil heat  transfer influence is larger, the groundwater seepage speed of 15 m per  annual, running 3-4 years later, the heat transfer well area of the soil  temperature field will be stable, which can judge in the groundwater seepage  is sufficient area, the buried tube ground source heat pump conditional soil  winter and summer heat balance.